Antonio Motta | Soil Fertility | SustainableAg Leadership Award

Posted on by ScienceFather

Prof  Antonio  Motta |  Soil Fertility | SustainableAg Leadership Award

Professor Titula at  Federal University of Praná – Brazil

 Antonio Carlos Vargas Motta is a prominent researcher with significant contributions in the field of Agronomy, particularly focusing on soil fertility, fertilization, and plant nutrition. He holds a position as a Full Professor at the Federal University of Paraná (UFPR) and is actively involved in postgraduate education in Soil Science at UFPR. Below is a summary of his academic achievements and research interests.

Publication Profile:🌟👨‍🎓

Academic Qualifications:

Post-doctorate from The University of Nottingham, England, in 2016. Doctorate in Agronomy and Soils from Auburn University in 2002. Master’s degree in Soils and Plant Nutrition from Universidade Federal de Lavras in 1987. Bachelor’s degree in Agronomy from Universidade Federal do Espírito Santo in 1984.

Notable Publications:

Research covers a broad range of topics including soil fertility, plant nutrition, forest management, and environmental assessment. Notable publications in peer-reviewed journals such as “CIÊNCIA RURAL,” “JOURNAL OF FORESTRY RESEARCH,” “Soil Research,” “Sustainability,” “BIOLOGICAL TRACE ELEMENT RESEARCH,” and “Integrated Environmental Assessment and Management.”

Collaborative Work:

Collaboration with various researchers and institutions worldwide, evidenced by co-authored papers. Collaborative research spans topics including soil management, forest ecology, plant nutrition, and environmental impact assessment.

 

Research Focus: Soil Fertility 🌱

🌱 Soil Fertility 🌿 Fertilization of Forest Species (such as Pinus taeda, Eucalyptus, Araucaria, and Yerba Mate) 🔬 Micronutrients in Agriculture 🍃 Use of Organic and Residual Materials in Agriculture. These research areas are reflected in his work on topics such as magnesium deficiency in Pinus taeda, soil macrofauna in regenerating Atlantic Forest patches, crop rotation and liming effects on soybean and corn yield, environmental assessment of iron ore tailings, accumulation capacity of nickel and zinc in Yerba Mate, and wood production in response to fertilization and liming.

Citations:

  • Antônio Carlos Vargas Motta has a total of 1,132 citations from 950 documents.
  • He has authored or co-authored a total of 112 documents.
  • His h-index, which reflects the number of papers (h) that have been cited at least h times, is not explicitly provided in the information provided. However, the h-index is commonly used to evaluate the impact of a researcher’s work based on their citation record.

The h-index button is disabled in the preview mode, so it’s not possible to view the h-graph or determine the exact h-index from the information given. If you have access to a platform like Google Scholar or a scholarly database, you may be able to find more detailed metrics including the h-index for Antônio Carlos Vargas Motta.

 

 

Publications Top Notes:

  1. Is magnesium deficiency the major cause of needle chlorosis of Pinus taeda in Brazil?
    • Authors: Motta, A.C.V., Maeda, S., Rodrigues, V.S.S., Barbosa, J.Z., Gomes, J.B.V.
    • Journal: Journal of Forestry Research, 2024, 35(1), 24
  2. Soil macrofauna and water-related functions in patches of regenerating Atlantic Forest in Brazil
    • Authors: Demetrio, W.C., Brown, G.G., Pupin, B., Bartz, M.L.C., Borma, L.S.
    • Journal: Pedobiologia, 2024, 103, 150944
  3. Soybean and corn yield as affected by crop rotation and surface liming under a no-tillage system
    • Authors: Fontoura, S.M.V., Melinski, A.M., Motta, A.C.V., Prior, S.A., Pauletti, V.
    • Journal: Soil Research, 2024, 62(1), SR22246
  4. Integrated environmental assessment of iron ore tailings in floodplain soils and plants after the Fundão Dam disaster in Brazil
    • Authors: Melo, V.F., Lipski, B., Motta, A.C.V., Thá, E.L., Bastos, L.P.
    • Journal: Integrated Environmental Assessment and Management, 2024, 20(1), pp. 117–132
  5. Accumulation Capacity of Nickel and Zinc in Yerba Mate Cultivated in Soils with Contrasting Parent Materials
    • Authors: Ulbrich, N.C.M., Motta, A.C.V., Magri, E., Wendling, I., Poggere, G.
    • Journal: Biological Trace Element Research, 2023, 201(11), pp. 5468–5480
  6. Wood production and nutritional status of Pinus taeda L. in response to fertilization and liming: a meta-analysis of the Americas
    • Authors: Rodrigues, V.S., Motta, A.C.V., Barbosa, J.Z., Ercole, T.M., Prior, S.A.
    • Journal: IForest, 2023, 16(4), pp. 195–201

 

Byron Lapo Calderón | Sustainable Agriculture

Posted on by ScienceFather
🌱Dr Byron Lapo Calderón: Leading Researcher in Sustainable Agriculture
Profesor at Universidad Técnica de Machala, Ecuador

🏆Congratulations, Dr Byron Lapo Calderón, on winning the esteemed Best Researcher Award from ResearchW! Your dedication, innovative research, and scholarly contributions have truly made a significant impact in your field. Your commitment to advancing knowledge and pushing the boundaries of research is commendable. Here’s to your continued success in shaping the future of academia and making invaluable contributions to your field. Well done! 👨‍🎓

🌍 Byron Gonzalo Lapo Calderón, born on January 12, 1983, in Machala, Ecuador, is an accomplished individual in the field of chemical engineering and environmental sciences. He earned his Bachelor’s degree in Chemical Engineering from the Universidad Técnica de Machala in 2006. Subsequently, Byron pursued a Master’s in Environmental Engineering at the Escuela Politécnica Nacional in 2014. Currently a Ph.D. candidate in Chemical Process Engineering at the Universidad Politécnica de Cataluña, Spain, Byron has demonstrated his commitment to academic excellence. ! 🥳👏

Professional Profiles: 🎉
Research Focus: 🌍🔬

This person’s research focus spans diverse areas, showcasing a multidisciplinary approach. They delve into sustainable solutions using banana waste for critical rare earth recovery, explore starch gelatinization in Ecuadorian exportable bananas, and address environmental challenges through chitosan-iron (III) systems for mercury and lead sorption. The application of chitosan-based materials extends to neodymium and antimony removal, emphasizing their versatility. Additionally, their work involves assessing mercury levels in Ecuadorian coastal sediments and enhancing electrochemical sensors for chemical oxygen demand determination. The research culminates in innovative methods like Nafion film covers and chitosan-manganese-ferrite magnetic beads for efficient metal recovery.

Publication Top Notes: 👨‍🎓🌱